AbstractCell based transport properties have been mathematically addressed. Cell contained cross boundary diffusion of materials has been explained using valid formalisms and related analytical expressions have been developed. Various distinguishable physical structures and their properties raise different general structure specific diffusion mechanisms and controlled transport related parameters. Some of these parameters play phenomenological roles and some cause regulatory effects. The cell based compartments may be divided into three major physical phase states namely liquid, plasma and solid phase states. Transport of ions, nutrients, small molecules like proteins, etc. across inter phase states and intraphase states follows general tra...
The interior of a living cell is a crowded, heterogenuous, fluctuating environment. Hence, a major c...
In the thesis work we investigate four problems connected with dynamical processes in condensed medi...
Dynamical spatial organization in living cells provides the framework underlying the fundamental gen...
AbstractCell based transport properties have been mathematically addressed. Cell contained cross bou...
Biological processes take place far away from equilibrium and are of interest to uncover the basic p...
International audienceWe present an overview of diffusion models commonly used for quantifying the d...
Chemical reactions make cells work only if the participating chemicals are delivered to desired loca...
International audienceProblems of quantitative investigation of intracellular diffusion and compartm...
Biomicrofluidics is an emerging field at the cross roads of microfluidics and life sciences which re...
All substances exhibit constant random motion at the microscopic scale. This is a direct consequence...
Problems of quantitative investigation of intracellular diffusion and compartmentation of metabolite...
AbstractThe intricate geometry of cytoskeletal networks and internal membranes causes the space avai...
Various transport models and mechanisms for ions from different compartments of the cell are conside...
For many years, it has been believed that diffusion is the principle motive force for distributing m...
Abstract. Diffusion theory explains in physical terms how materials move through a medium, e.g. wate...
The interior of a living cell is a crowded, heterogenuous, fluctuating environment. Hence, a major c...
In the thesis work we investigate four problems connected with dynamical processes in condensed medi...
Dynamical spatial organization in living cells provides the framework underlying the fundamental gen...
AbstractCell based transport properties have been mathematically addressed. Cell contained cross bou...
Biological processes take place far away from equilibrium and are of interest to uncover the basic p...
International audienceWe present an overview of diffusion models commonly used for quantifying the d...
Chemical reactions make cells work only if the participating chemicals are delivered to desired loca...
International audienceProblems of quantitative investigation of intracellular diffusion and compartm...
Biomicrofluidics is an emerging field at the cross roads of microfluidics and life sciences which re...
All substances exhibit constant random motion at the microscopic scale. This is a direct consequence...
Problems of quantitative investigation of intracellular diffusion and compartmentation of metabolite...
AbstractThe intricate geometry of cytoskeletal networks and internal membranes causes the space avai...
Various transport models and mechanisms for ions from different compartments of the cell are conside...
For many years, it has been believed that diffusion is the principle motive force for distributing m...
Abstract. Diffusion theory explains in physical terms how materials move through a medium, e.g. wate...
The interior of a living cell is a crowded, heterogenuous, fluctuating environment. Hence, a major c...
In the thesis work we investigate four problems connected with dynamical processes in condensed medi...
Dynamical spatial organization in living cells provides the framework underlying the fundamental gen...